Mazel:Publications: Difference between revisions
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26. Demarre G, Frumerie C, Gopaul DN, Mazel D. | * 26. Demarre G, Frumerie C, Gopaul DN, Mazel D. | ||
Identification of key structural determinants of the IntI1 integron integrase that influence attC x attI1 recombination efficiency. | Identification of key structural determinants of the IntI1 integron integrase that influence attC x attI1 recombination efficiency. | ||
Nucleic Acids Res. (published online 2007 September 20) | Nucleic Acids Res. (published online 2007 September 20) | ||
25. Wilbaux M, Mine N, Guerout AM, Mazel D, Van Melderen L | * 25. Wilbaux M, Mine N, Guerout AM, Mazel D, Van Melderen L | ||
Functional interactions between coexisting TA systems of the ccd family in E. coli O157:H7. | Functional interactions between coexisting TA systems of the ccd family in E. coli O157:H7. | ||
J Bacteriol. (2007) 2712-2719, Vol. 189, No. 7 | J Bacteriol. (2007) 2712-2719, Vol. 189, No. 7 | ||
24. Le Roux F, Binesse J, Saulnier D, Mazel D | * 24. Le Roux F, Binesse J, Saulnier D, Mazel D | ||
Construction of a Vibrio splendidus mutant lacking the metalloprotease gene vsm by use of a novel counterselectable suicide vector. | Construction of a Vibrio splendidus mutant lacking the metalloprotease gene vsm by use of a novel counterselectable suicide vector. | ||
Appl Environ Microbiol. (2007) 73(3):777-84. | Appl Environ Microbiol. (2007) 73(3):777-84. | ||
23. Szekeres S, Dauti M, Wilde C, Mazel D, Rowe-Magnus DA | * 23. Szekeres S, Dauti M, Wilde C, Mazel D, Rowe-Magnus DA | ||
Chromosomal addiction loci can diminish large-scale genome reductions in the absence of selection. | Chromosomal addiction loci can diminish large-scale genome reductions in the absence of selection. | ||
Molecular Microbiol. (2007) 63(6),1588-1605. | Molecular Microbiol. (2007) 63(6),1588-1605. | ||
22. DIDIER MAZEL | * 22. DIDIER MAZEL | ||
Integrons: agents of bacterial evolution. | Integrons: agents of bacterial evolution. | ||
Nature Reviews Microbiology (2006) 8, 608-20. | Nature Reviews Microbiology (2006) 8, 608-20. | ||
21. DOUGLAS MACDONALD, GAELLE DEMARRE, MARIE BOUVIER, DIDIER MAZEL & DESHMUKH N.GOPAUL | * 21. DOUGLAS MACDONALD, GAELLE DEMARRE, MARIE BOUVIER, DIDIER MAZEL & DESHMUKH N.GOPAUL | ||
Structural basis for broad DNA-specificity in integron recombination. | Structural basis for broad DNA-specificity in integron recombination. | ||
Nature (2006) 440, 1157-1162. | Nature (2006) 440, 1157-1162. | ||
20. MARIE BOUVIER, GAELLE DEMARRE and DIDIER MAZEL | * 20. MARIE BOUVIER, GAELLE DEMARRE and DIDIER MAZEL | ||
Integron cassette insertion: a recombination process involving a folded single strand substrate. | Integron cassette insertion: a recombination process involving a folded single strand substrate. | ||
The EMBO Journal (2005) 24, 4356-4367. | The EMBO Journal (2005) 24, 4356-4367. | ||
19. VAL ME, BOUVIER M, CAMPOS J, SHERRATT D, CORNET F, MAZEL D, BARRE FX. | * 19. VAL ME, BOUVIER M, CAMPOS J, SHERRATT D, CORNET F, MAZEL D, BARRE FX. | ||
The Single-Stranded Genome of Phage CTX Is the Form Used for Integration into the Genome of Vibrio cholerae. | The Single-Stranded Genome of Phage CTX Is the Form Used for Integration into the Genome of Vibrio cholerae. | ||
Mol Cell. 2005 Aug 19;19(4):559-66. | Mol Cell. 2005 Aug 19;19(4):559-66. | ||
18. SKURNIK D, LE MENAC'H A, ZURAKOWSKI D, MAZEL D, COURVALIN P, DENAMUR E, ANDREMONT A, RUIMY R. | * 18. SKURNIK D, LE MENAC'H A, ZURAKOWSKI D, MAZEL D, COURVALIN P, DENAMUR E, ANDREMONT A, RUIMY R. | ||
Integron-associated antibiotic resistance and phylogenetic grouping of Escherichia coli isolates from healthy subjects free of recent antibiotic exposure. | Integron-associated antibiotic resistance and phylogenetic grouping of Escherichia coli isolates from healthy subjects free of recent antibiotic exposure. | ||
Antimicrob Agents Chemother. 2005 Jul;49(7):3062-5. | Antimicrob Agents Chemother. 2005 Jul;49(7):3062-5. | ||
17. BISKRI, L., BOUVIER, M., GUEROUT, A.-M., BOISNARD, S. and MAZEL. D. | * 17. BISKRI, L., BOUVIER, M., GUEROUT, A.-M., BOISNARD, S. and MAZEL. D. | ||
Comparative study of the class 1 integron and Vibrio cholerae superintegron integrase activities. | Comparative study of the class 1 integron and Vibrio cholerae superintegron integrase activities. | ||
Journal of Bacteriology (2005) 187(5):1740-50. | Journal of Bacteriology (2005) 187(5):1740-50. | ||
16. DEMARRE, G., GUEROUT, A.-M., MATSUMOTO-MASHIMO, C., ROWE-MAGNUS, D.A., MARLIERE P. and MAZEL, D. | * 16. DEMARRE, G., GUEROUT, A.-M., MATSUMOTO-MASHIMO, C., ROWE-MAGNUS, D.A., MARLIERE P. and MAZEL, D. | ||
A new family of mobilizable suicide plasmids based on the broad host range R388 plasmid (IncW) or RP4 plasmid (IncP-alpha) conjugative machineries and their cognate E.coli host strains. | A new family of mobilizable suicide plasmids based on the broad host range R388 plasmid (IncW) or RP4 plasmid (IncP-alpha) conjugative machineries and their cognate E.coli host strains. | ||
Research in Microbiology (2005) 156(2):245-55 | Research in Microbiology (2005) 156(2):245-55 | ||
15. MATSUMOTO-MASHIMO, C. , GUÉROUT, A.-M. and MAZEL D. | * 15. MATSUMOTO-MASHIMO, C. , GUÉROUT, A.-M. and MAZEL D. | ||
A new family of conditional replicating plasmids and their cognate E.coli host strains” | A new family of conditional replicating plasmids and their cognate E.coli host strains” | ||
Research in Microbiology (2004) 155(6):455-61. | Research in Microbiology (2004) 155(6):455-61. | ||
14. BISKRI, L. and MAZEL D. | * 14. BISKRI, L. and MAZEL D. | ||
Erythromycin esterase gene ere(A) is located in a functional gene cassette in an unusual class 2 integron. | Erythromycin esterase gene ere(A) is located in a functional gene cassette in an unusual class 2 integron. | ||
Antimicrobial Agents and Chemotherapy (2003) 47:3326-31. | Antimicrobial Agents and Chemotherapy (2003) 47:3326-31. | ||
13. ROWE-MAGNUS, D.A., GUEROUT, A.-M., BISKRI, L., BOUIGE, P. and MAZEL D. | * 13. ROWE-MAGNUS, D.A., GUEROUT, A.-M., BISKRI, L., BOUIGE, P. and MAZEL D. | ||
Comparative analysis of superintegrons: engineering extensive genetic diversity in the Vibrionaceae. | Comparative analysis of superintegrons: engineering extensive genetic diversity in the Vibrionaceae. | ||
Genome Research (2003) 13 (3): 428-442. (pubMed) | Genome Research (2003) 13 (3): 428-442. (pubMed) | ||
12. ROWE-MAGNUS, D.A., GUEROUT, A.-M., and MAZEL D. | * 12. ROWE-MAGNUS, D.A., GUEROUT, A.-M., and MAZEL D. | ||
Bacterial resistance evolution by recruitment of super-integron gene cassettes. | Bacterial resistance evolution by recruitment of super-integron gene cassettes. | ||
Molecular Microbiology (2002) 43 (6):1657-69. | Molecular Microbiology (2002) 43 (6):1657-69. | ||
11. ROWE-MAGNUS, D.A., DAVIES, J. and MAZEL D. | * 11. ROWE-MAGNUS, D.A., DAVIES, J. and MAZEL D. | ||
Impact of integrons and transposons on the evolution of resistance and virulence. | Impact of integrons and transposons on the evolution of resistance and virulence. | ||
Current Topics in Microbiology and Immunology (2002) 264 (2):167-88 | Current Topics in Microbiology and Immunology (2002) 264 (2):167-88 | ||
10. ROWE-MAGNUS, D. A., and MAZEL D. | * 10. ROWE-MAGNUS, D. A., and MAZEL D. | ||
Integrons: natural tools for bacterial genome evolution. | Integrons: natural tools for bacterial genome evolution. | ||
Current Opinion in Microbiology (2001) 4(5):565-9. | Current Opinion in Microbiology (2001) 4(5):565-9. | ||
9. HOCHHUT, B., Y. LOFTI, MAZEL D., S.M. FARUQUE, R. WOODGATE and M.K. WALDOR. | * 9. HOCHHUT, B., Y. LOFTI, MAZEL D., S.M. FARUQUE, R. WOODGATE and M.K. WALDOR. | ||
Molecular analysis of the antibiotic resistance gene clusters in the Vibrio cholerae O139 and O1 SXT constins. | Molecular analysis of the antibiotic resistance gene clusters in the Vibrio cholerae O139 and O1 SXT constins. | ||
Antimicrobial Agents and Chemotherapy (2001) 45 (11):2991-3000. | Antimicrobial Agents and Chemotherapy (2001) 45 (11):2991-3000. | ||
8. ROWE-MAGNUS, D.A., GUEROUT, A.-M., PLONCARD, P., DYCHINCO, B., DAVIES, J. and MAZEL D. | * 8. ROWE-MAGNUS, D.A., GUEROUT, A.-M., PLONCARD, P., DYCHINCO, B., DAVIES, J. and MAZEL D. | ||
The evolutionary history of chromosomal super-integrons provides an ancestry for multiresistant integrons. | The evolutionary history of chromosomal super-integrons provides an ancestry for multiresistant integrons. | ||
Proc. Natl. Acad. Sci. U.S.A. (2001) 98 (2), 652-657. | Proc. Natl. Acad. Sci. U.S.A. (2001) 98 (2), 652-657. | ||
7. MAZEL D., DYCHINCO, B., WEBB, V. A. and J. DAVIES. | * 7. MAZEL D., DYCHINCO, B., WEBB, V. A. and J. DAVIES. | ||
Antibiotic resistance in the ECOR collection: integrons and the identification of a novel aad gene. | Antibiotic resistance in the ECOR collection: integrons and the identification of a novel aad gene. | ||
Antimicrobial Agents and Chemotherapy (2000) 44 (6):1568-74. | Antimicrobial Agents and Chemotherapy (2000) 44 (6):1568-74. | ||
6. ROWE-MAGNUS, D. A, GUEROUT, A.-M. and MAZEL D.. | * 6. ROWE-MAGNUS, D. A, GUEROUT, A.-M. and MAZEL D.. | ||
Super-integrons. | Super-integrons. | ||
Research in Microbiology (1999) 150, 641-51. | Research in Microbiology (1999) 150, 641-51. | ||
5. ROWE-MAGNUS, D. A. and MAZEL D.. | * 5. ROWE-MAGNUS, D. A. and MAZEL D.. | ||
Resistance gene capture. | Resistance gene capture. | ||
Current Opinion in Microbiology (1999) 2, 483-88. | Current Opinion in Microbiology (1999) 2, 483-88. | ||
4. MAZEL D. and J. DAVIES. | * 4. MAZEL D. and J. DAVIES. | ||
Antibiotic resistance in Microbes | Antibiotic resistance in Microbes | ||
Cellular and Molecular Life Sciences (1999) 56, 742-754. | Cellular and Molecular Life Sciences (1999) 56, 742-754. | ||
3. MAZEL D. and J. DAVIES. | * 3. MAZEL D. and J. DAVIES. | ||
Gene capture in Vibrio cholerae: response. | Gene capture in Vibrio cholerae: response. | ||
Trends in Microbiology (1999), 7, 95. | Trends in Microbiology (1999), 7, 95. | ||
2. MAZEL D. and J. DAVIES. | * 2. MAZEL D. and J. DAVIES. | ||
Antibiotic resistance: the big picture. | Antibiotic resistance: the big picture. | ||
Adv. Exp. Med. Biol. (1998) 456, 1-6. | Adv. Exp. Med. Biol. (1998) 456, 1-6. | ||
1. MAZEL D., B. DYCHINCO, V.A. WEBB and J. DAVIES. | * 1. MAZEL D., B. DYCHINCO, V.A. WEBB and J. DAVIES. | ||
A distinctive class of integron in the Vibrio cholerae genome | A distinctive class of integron in the Vibrio cholerae genome | ||
Science (1998), 280, 605-608 | Science (1998), 280, 605-608 | ||
Revision as of 10:10, 24 September 2008
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- 26. Demarre G, Frumerie C, Gopaul DN, Mazel D.
Identification of key structural determinants of the IntI1 integron integrase that influence attC x attI1 recombination efficiency. Nucleic Acids Res. (published online 2007 September 20)
- 25. Wilbaux M, Mine N, Guerout AM, Mazel D, Van Melderen L
Functional interactions between coexisting TA systems of the ccd family in E. coli O157:H7. J Bacteriol. (2007) 2712-2719, Vol. 189, No. 7
- 24. Le Roux F, Binesse J, Saulnier D, Mazel D
Construction of a Vibrio splendidus mutant lacking the metalloprotease gene vsm by use of a novel counterselectable suicide vector. Appl Environ Microbiol. (2007) 73(3):777-84.
- 23. Szekeres S, Dauti M, Wilde C, Mazel D, Rowe-Magnus DA
Chromosomal addiction loci can diminish large-scale genome reductions in the absence of selection. Molecular Microbiol. (2007) 63(6),1588-1605.
- 22. DIDIER MAZEL
Integrons: agents of bacterial evolution. Nature Reviews Microbiology (2006) 8, 608-20.
- 21. DOUGLAS MACDONALD, GAELLE DEMARRE, MARIE BOUVIER, DIDIER MAZEL & DESHMUKH N.GOPAUL
Structural basis for broad DNA-specificity in integron recombination. Nature (2006) 440, 1157-1162.
- 20. MARIE BOUVIER, GAELLE DEMARRE and DIDIER MAZEL
Integron cassette insertion: a recombination process involving a folded single strand substrate. The EMBO Journal (2005) 24, 4356-4367.
- 19. VAL ME, BOUVIER M, CAMPOS J, SHERRATT D, CORNET F, MAZEL D, BARRE FX.
The Single-Stranded Genome of Phage CTX Is the Form Used for Integration into the Genome of Vibrio cholerae. Mol Cell. 2005 Aug 19;19(4):559-66.
- 18. SKURNIK D, LE MENAC'H A, ZURAKOWSKI D, MAZEL D, COURVALIN P, DENAMUR E, ANDREMONT A, RUIMY R.
Integron-associated antibiotic resistance and phylogenetic grouping of Escherichia coli isolates from healthy subjects free of recent antibiotic exposure. Antimicrob Agents Chemother. 2005 Jul;49(7):3062-5.
- 17. BISKRI, L., BOUVIER, M., GUEROUT, A.-M., BOISNARD, S. and MAZEL. D.
Comparative study of the class 1 integron and Vibrio cholerae superintegron integrase activities. Journal of Bacteriology (2005) 187(5):1740-50.
- 16. DEMARRE, G., GUEROUT, A.-M., MATSUMOTO-MASHIMO, C., ROWE-MAGNUS, D.A., MARLIERE P. and MAZEL, D.
A new family of mobilizable suicide plasmids based on the broad host range R388 plasmid (IncW) or RP4 plasmid (IncP-alpha) conjugative machineries and their cognate E.coli host strains. Research in Microbiology (2005) 156(2):245-55
- 15. MATSUMOTO-MASHIMO, C. , GUÉROUT, A.-M. and MAZEL D.
A new family of conditional replicating plasmids and their cognate E.coli host strains” Research in Microbiology (2004) 155(6):455-61.
- 14. BISKRI, L. and MAZEL D.
Erythromycin esterase gene ere(A) is located in a functional gene cassette in an unusual class 2 integron. Antimicrobial Agents and Chemotherapy (2003) 47:3326-31.
- 13. ROWE-MAGNUS, D.A., GUEROUT, A.-M., BISKRI, L., BOUIGE, P. and MAZEL D.
Comparative analysis of superintegrons: engineering extensive genetic diversity in the Vibrionaceae. Genome Research (2003) 13 (3): 428-442. (pubMed)
- 12. ROWE-MAGNUS, D.A., GUEROUT, A.-M., and MAZEL D.
Bacterial resistance evolution by recruitment of super-integron gene cassettes. Molecular Microbiology (2002) 43 (6):1657-69.
- 11. ROWE-MAGNUS, D.A., DAVIES, J. and MAZEL D.
Impact of integrons and transposons on the evolution of resistance and virulence. Current Topics in Microbiology and Immunology (2002) 264 (2):167-88
- 10. ROWE-MAGNUS, D. A., and MAZEL D.
Integrons: natural tools for bacterial genome evolution. Current Opinion in Microbiology (2001) 4(5):565-9.
- 9. HOCHHUT, B., Y. LOFTI, MAZEL D., S.M. FARUQUE, R. WOODGATE and M.K. WALDOR.
Molecular analysis of the antibiotic resistance gene clusters in the Vibrio cholerae O139 and O1 SXT constins. Antimicrobial Agents and Chemotherapy (2001) 45 (11):2991-3000.
- 8. ROWE-MAGNUS, D.A., GUEROUT, A.-M., PLONCARD, P., DYCHINCO, B., DAVIES, J. and MAZEL D.
The evolutionary history of chromosomal super-integrons provides an ancestry for multiresistant integrons. Proc. Natl. Acad. Sci. U.S.A. (2001) 98 (2), 652-657.
- 7. MAZEL D., DYCHINCO, B., WEBB, V. A. and J. DAVIES.
Antibiotic resistance in the ECOR collection: integrons and the identification of a novel aad gene. Antimicrobial Agents and Chemotherapy (2000) 44 (6):1568-74.
- 6. ROWE-MAGNUS, D. A, GUEROUT, A.-M. and MAZEL D..
Super-integrons. Research in Microbiology (1999) 150, 641-51.
- 5. ROWE-MAGNUS, D. A. and MAZEL D..
Resistance gene capture. Current Opinion in Microbiology (1999) 2, 483-88.
- 4. MAZEL D. and J. DAVIES.
Antibiotic resistance in Microbes Cellular and Molecular Life Sciences (1999) 56, 742-754.
- 3. MAZEL D. and J. DAVIES.
Gene capture in Vibrio cholerae: response. Trends in Microbiology (1999), 7, 95.
- 2. MAZEL D. and J. DAVIES.
Antibiotic resistance: the big picture. Adv. Exp. Med. Biol. (1998) 456, 1-6.
- 1. MAZEL D., B. DYCHINCO, V.A. WEBB and J. DAVIES.
A distinctive class of integron in the Vibrio cholerae genome Science (1998), 280, 605-608
